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Program Highlights

“Shaken, not stirred”: Spin controlled with mechanical vibration

Research
Spin resonance in diamond using a MEMS resonator
(2014)

Atomic Break Dancing in the World’s Thinnest Glass

Research

Electron microscopy reveals the fundamental steps of bending

(2014)

Ordering Nanoscale Dots with Molecular Honeycombs

Research

Designable Porous Organic Networks Represent A New Strategy for Nanoparticle Assembly

(2013)

Launching Student Interest in Science

Scientists design experiments to increase excitement K-12 science education
(2013)

Precise Stitching, Not Patch Size, Determines the Quality of Atomic Quilts

Research
Intergrain stitching determines electrical conductance across graphene grain boundaries

The outstanding electronic and mechanical properties of single-atom-thick layers of carbon, so-called “graphene” films, make

(2012)

Controlling and Imaging Electron Motions in Atomic-Scale Sandwiches

Research
A new instrument allows the first imaging of the movement of electrons in artificial materials

(2012)

A Better Type of Computer Memory Demonstrated

Research
Newly discovered “giant” spin Hall effect enables simple and efficient magnetic memory
(2012)

Visualizing the intricate electron pairing in iron-based superconductors

Research
Correlated motion provides new clues to the magnetic origin of high-temperature superconductivity

Superconducting wires conduct electricity perfectly — without any energy losses — because

(2012)

Patterned Graphene "Scrap" Grows into Continuous "Patchwork Quilt"

Research

 

New technique produces heterojunctions in single-atom-thick graphene

(2012)

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